QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1317A-A ACTIVE RESET ISOLATED 48V INPUT TO 3.3V @30A DC/DC POWER CONVERTER LT1952 DESCRIPTION Demonstration circuit 1317A-A is isolated input to high current output 1/8th Brick footprint converter featuring the LT(R)1952 switching controller with Active Reset circuit. The Active Reset circuit can improve the efficiency in wide input voltage applications. Also, the Active Reset allows the implementation of self-driven synchronous secondary rectifiers in some applications. The DC1317A-A converts isolated 34V to 75V input to 3.3V output and provides over 30A of output current. The converter operates at 300kHz with the peak efficiency greater than 93%. The DC1317 can be easily modified to generate output voltages in the range from 0.6V to 48V. The output currents are limited by total output power of up to 150W. The other available versions of DC1317A are: DC1317A-B, 18-72Vin to 5V, 25A DC1317A-F, 9-36Vin to 3.3V, 20A DC1317A-G, 9-36Vin to 12V, 5A DC1317A-H, 9-36Vin to 48V, 1.5A The DC1317 circuit features soft-start which prevents output voltage overshoot on startup or when recovering from overload condition. The DC1317 has precise over-current protection circuit that allows for continuous operation under short circuit conditions. The low power dissipation under short circuit conditions insures high reliability even during short circuits. The LT1952 can be synchronized to an external clock of up to 400kHz. Please refer to LT1952 data sheet for design details and applications information. DC1317A-C, 18-72Vin to 12V, 10A Design files for this circuit board are avail available. Call the LTC factory. DC1317A-D, 18-72Vin to 24V, 5A LT is a trademark of Linear Technology Corporation DC1317A-E, 36-72Vin to 5V, 12A Table 1. Performance Summary PARAMETER CONDITION VALUE Minimum Input Voltage IOUT = 0A to 30A 34V Maximum Input Voltage IOUT = 0A to 30A 75V VOUT VIN = 34V to 75V, IOUT = 0A to 30A 3.3V 3% Typical Output Ripple VOUT VIN = 34V to 75V, IOUT = 0A to 30A 50mVP-P Nominal Switching Frequency 300kHz QUICK START PROCEDURE PROCEDURE Demonstration circuit 1317 is easy to set up to evaluate the performance of LT1952 circuit. Refer to FigFig- ure 1 for proper measurement equipment setup and follow the procedure below: 1 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1317A-A ACTIVE RESET ISOLATED 48V INPUT TO 3.3V @30A DC/DC POWER CONVERTER NOTE: When measuring the input or output voltage ripple, care must be taken to avoid a long ground lead on the oscilloscope probe. Measure the input or output voltage ripple by touching the probe tip directly across the Vin or Vout and GND terminals. See Figure 2. for proper scope probe technique. 1. With power off, connect the input power supply to Vin and GND. Make sure that the input power supply has sufficient current rating at minimum input voltage for the required output load. 2. Turn on the power at the input. If there is no output, temporarily disconnect the load to make sure that the load is not set too high. 4. Once the proper output voltage is established, adjust the load within the operating range and observe the output voltage regulation, ripple voltage, efficiency and other parameters. 5. The DC1317 is equipped with an output capacitor CSYS (470uF) that approximates typical system rail capacitance. If system board already has capacitance of similar value CSYS can be removed. NOTE: Make sure that the input voltage does not exceed 75V. 3. Check for the proper output voltage. Vout = 3.3V. Figure 1. Proper Proper Measurement Equipment Setup 2 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1317A-A ACTIVE RESET ISOLATED 48V INPUT TO 3.3V @30A DC/DC POWER CONVERTER Rip p ple Figure 2. Scope Probe Placement for Measuring Input or Output Ri OPTIONAL PRIMARY MOSFET MOSFET DRIVER LTC4440 ACTIVE RESET CIRCUIT The Active Reset circuit on DC1317A-A demo board consists of a small P-Channel MOSFET Q13 and reset capacitor C25. The MOSFET Q13 is used to connect the reset capacitor across the transformer T1 primary winding during the reset period when Q1 MOSFET is off. The voltage across capacitor C25 automatically adjusts with the duty cycle to provide complete transformer reset under all operating conditions. Also the active reset circuit shapes the reset voltage into a square waveform that is suitable for driving the secondary synchronous MOSFET rectifier Q3. Beware that the gate voltage of Q3 depends on the reset circuit Q13 and transformer turns ratio. The main benefit of active reset circuit in the case of DC1317A-A demo board is high efficiency (shown in Figure 3)and small size. To achieve such high efficiency all of the power components were carefully selected. Please consult LT factory for assistance if any changes to the circuit are required. 94% 93% Efficiency The DC1317 has an optional LTC4440 MOSFET driver U2. The LTC4440 can be used if the efficiency is important and large MOSFET is used. The efficiency gain is usually in the 0.5%-1% range when LTC4440 is used. If required, please contact LT factory for assistance. DC1317A-A (LT1952) 48Vin to 3.3V out Efficiency 92% 91% 90% 89% 88% 0 10 20 30 Iout [A] Figure 3. High efficiency of DC1317ADC1317A-A al allows the board to be used in thermally critical appliapplications OUTPUT LOAD STEP RESPONSE The load step response of DC1317A-A is very fast even though relatively small amount of output capacitance is present (200uF ceramic and 470uF electrolytic). This is thanks to fast error amplifier of LT4430, optimal amount of current slope compensation of LT1952, fast opto coupler and fast error amplifier of LT1952. If higher load steps need to be handled more output capacitance can be added in order to keep the voltage transients at the desired level. The load step transients are shown in Figure 4. 3 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1317A-A ACTIVE RESET ISOLATED 48V INPUT TO 3.3V @30A DC/DC POWER CONVERTER remove the resistor R1 and connect 48V, 100mA power source to +Vb node (right side of R1). By doing this, the primary PWM controller LT1952 can be activated without the main primary power being applied to +Vin. To activate the secondary side control circuit LT4430 diode OR a 5V, 100mA power source into pin 1 of LT4430 controller. Figure 4. Fast transient response of DC1317 is su perior to many competing power modules without the additional output capaci capacitors. SOFT START FUNCTION The DC1317 features LT4430 opto coupler driver that has soft start function which produces monotonic startup ramp shown if Figure 5. The rise time of output voltage is controlled by capacitor C19 that is connected to OC (Overshoot Control) pin of LT4430. Also, the soft-start function will prevent input current surges even with full load at the output. Once the primary and secondary controllers are running the main power (+Vin) can be applied slowly while observing the switching waveforms and output voltage. The input current supplying the power transformer T1 should not exceeded 100mA without the output load. If one of the MOSFETs is damaged, the input current will exceed 100mA. PCB LAYOUT The pcb layout should be carefully planned to avoid potential noise problems. The PCB layout for DC1317A can be used as a guide. Since demo board DC1317A has 8 versions the PCB layout has optional components that can be removed. Also, the PCB layout has a common schematic that is used just for the layout. The actual circuit schematic shows component values. The PCB layout schematic does not show the component values. In some cases, a resistor is used in a place holder for a capacitor such as in the case of C4. Please modify the reference designators in your schematic to reflect the actual component used. The following simple PCB layout rules should be helpful. Figure Figure 5. The LT4430 opto coupler driver proproduces monotonic output voltage rise at startup without out out put voltage overshoot. If possible use solid ground planes on layers 2 and n-1. The ground planes will prevent the switching noise from coupling into sensitive lines. Place sensitive lines on the inner layers that will be shielded by grounds on layers 2 and n-1. DEBUGGING AND TESTING TESTING Keep the loop formed by Q1, RCS1, Cin and T1 tight. The DC1317 can easily be tested and debugged by powering the bias circuit separately from the main power circuit. To place DC1317 into debug mode Keep the loop formed by Q2, Q3 and T1 tight. Keep noise sensitive nodes like SD/VSEC, ROSC, FB, COMP, ISENSE, BLANK and DELAY as small as posible 4 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1317A-A ACTIVE RESET ISOLATED 48V INPUT TO 3.3V @30A DC/DC POWER CONVERTER by placing the associated components close to the LT1952 and LT4430 chips. Use local vias for all components that connect to ground planes. Do not place any traces on the layers 2 and n-1 to avoid ground planes from being compromised. If the PCB layout has to be done on 2 or 4-layer PCB try to stay close to the guidelines outlined above. Also, maximize the ground connections between components by placing the components tight together. Please contact LT factory for additional assistance. 5 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1317A-A ACTIVE RESET ISOLATED 48V INPUT TO 3.3V @30A DC/DC POWER CONVERTER Q10 PBSS8110 Vu1 L1 1 D3 BAS516 +Vr2 Cin 2x2.2uF R11 82k 2, 3 +Vin 4.7 2 Q12 BC856T R15 115k 3 4 SS C10 0.1u 5 6 R22 7 13.3k 8 R32 332k R28 442k +Vr2 +Vb Comp Rcs1 0.015R Vu1 Sout FB=1.23V Vin Rosc Out Sync PGND MaxDC Delay Vr=2.5V OC SD Isense GND Blank 16 U6 PS2801-1 R8 2.2R C16 0.22uF D10 13 C9 12 100p 11 10 R23 1.2k 9 R33 470k C13 .47u R24 39K R27 470 D6 B0540W 2 3 R30 1.2k C19 1uF 15 14 D11 BAS516 1 R26 220R C23 1uF U1 LT1952-1 SS R29 22K R50 2.2R Vfb BAT760 1 + CS D14 BAS516 Vfb Q3 Q1 Si7430 R45 10k R14 33K PA0861.004 HAT2165 4, 5 Q13 Si2325 D17 BAS516 Q2 GND C25 10n C33 0.1u T1 R54 C34 0.22uf R13 22K 9, 10, 11 6 PA1671.650 R49 2.2R D5 PDZ10B -Vin R53 200 +Vout D2 L2 1.5mH 2.2R 7, 8 470uF, 6.3V +Vin Csys +Vb R1 Co1 2x100uF +Vin Vcc Opto GND Comp SS FB U4 LT4430 C15 2.2nF, 2kV Cu1 4.7u C17 10n R34 4.75k 6 5 R35 82.5k 4 C24 47p R38 18.2K R20 174k Demo Board DC1317A-A schematic CS NOTE: This schematic shows only the components required for operation of -A version of DC1317A demo board. All optional components of DC1317A demo board have been removed. Also, all zero-ohm resistors have been replaced with wires. Please consult the full DC1317A-A schematic to decide if any of the optional components should be included in your design. 6 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1317A-A ACTIVE RESET ISOLATED 48V INPUT TO 3.3V @30A DC/DC POWER CONVERTER 7 QUICK START GUIDE FOR DEMONSTRATION CIRCUIT 1317A-A ACTIVE RESET ISOLATED 48V INPUT TO 3.3V @30A DC/DC POWER CONVERTER 8